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Department of Electro-Optical Engineering, Taipei Tech
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Electro-optics is an integrated technology of optics, mechanics, electronics, electrics, and materials. Our department’s research and development plan is focused on the following 6 fields with emphasis on the technology research and development of products relevant:

Optical Communications
The Fiber Optical Communication Laboratory in National Taipei University of Technology was established in 2001. In the area of optical communications, we focus on optical access networks, semiconductor optoelectronic devices, and optical signal processing. Our research interest includes radio-on-fiber transport systems, wavelength-division-multiplexed passive optical networks, fiber optical CATV systems, fabrication of high-sensitivity and high-speed photon detection devices, applications of slow light for optical signal processing.

Flat Panel Display
This field studies flat panel display related technologies, especially in liquid crystal display (LCD) and organic light-emitting and semiconductor devices (OLED). The main research include the electro-optical(EO) and physical properties in LCD and OLED, non-linear EO properties in liquid crystal material, and novel display modes of LCD and OLED. Moreover, the trend of electro-optical industry and technology is analyzed to obtain newer and more valuable technologies and patents.

Optoelectronic Material and Devices
The recent growing research and rapid development in the electro-optical science and technology attribute to the eager demand for both high-efficiency optoelectronic materials and the environmental protection. The research and studies in the field on novel ternary and quaternary compound semiconductors, light emitting diodes (LEDs), photodetectors, solar cells, integrated-optics devices, optic thin-films materials and nanostructures. In addition , the research attention can also be on the studies a variety of doping, design, package, processes and applications.

Nano/Bio Optics and Photonics
Many precision optical devices and system were produced since the developments of micro optics were enlarged. In the 20th century end, the studies of nano-technology broke limits of optical diffractions, and have the new directions in the measurement, optical storage and bio-optics. The study of the field includes: dielectric and metal nanorod arrays includes fabrication, measurement and application. Nano-scale optical thin films are fabricated using oblique angle technique. The behavior of light propagating in nanostructured films is simulated and analyzed by various electromagnetic theories. The design and application of Plasmonic nanostructured thin films are developed for novel optical devices. By using the near field optical technology to object on bio-sample, the electro-optical system are integrated in the bio applications, such as laser capture microdissections, laser Doppler Anemometry, and some devices of films and bio-chips.

Optical Information Processing
By taking the advantages of parallelism, non-interference, and diffraction phenomenon of light signal, we focus our researches on the study and simulations of scalar diffraction theories, the designs and implementations of micro diffractive elements, the study and development of optimization algorithms, the methods and realizations of optical information processing techniques and systems, the implementations and applications of digital holography, and the applications of diffractive optical elements.